Impacts of climate change on growth, migration and recruitment success of Japanese sardine (Sardinops melanostictus) in the western North Pacific

Abstract The impact of natural and anthropogenic climate change on tropical cyclone (TC) tracks in the western North Pacific (WNP) is examined using a beta and advection model (BAM) to isolate the influence of changes in the large-scale steering flow from changes in genesis location. The BAM captures many of the observed changes in TC tracks due to El Niño–Southern Oscillation (ENSO), while little change is noted for the Pacific decadal oscillation and all-India monsoon rainfall in either observations or BAM simulations. Analysis with the BAM suggests that the observed shifts in the average track between the phases of ENSO are primarily due to changes in the large-scale steering flow, with changes in genesis location playing a secondary role. Potential changes in TC tracks over the WNP due to anthropogenic climate change are also assessed. Ensemble mean projections are downscaled from 17 CMIP3 models and 26 CMIP5 models. Statistically significant decreases [~(4%–6%)] in westward moving TCs and increases [~(5%–7%)] in recurving ocean TCs are found. These correspond to projected decreases of 3–5 TCs per decade over the Philippines and increases of 1–3 TCs per decade over the central WNP. The projected changes are primarily caused by a reduction in the easterlies. This slows the storm movement, allowing more time for the beta drift to carry the storm northward and recurve. A previous study found similar results in the North Atlantic. Taken together, these results suggest that a weakening of the mean atmospheric circulation in response to anthropogenic warming will lead to fewer landfalling storms over the North Atlantic and WNP.

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Stronger density-dependent growth of Japanese sardine with lower food availability: Comparison of growth and zooplankton biomass between a historical and current stock-increase period in the western North Pacific

10.1101/2021.12.26.474216 ◽

2021 ◽

Author(s):

Yasuhiro Kamimura ◽

Kazuaki Tadokoro ◽

Sho Furuichi ◽

Ryuji Yukami

Keyword(s):

Density Dependence ◽

Food Availability ◽

North Pacific ◽

Western North Pacific ◽

Fish Population ◽

Japanese Sardine ◽

Density Dependent ◽

Mesozooplankton Biomass ◽

Current Period ◽

Dependent Growth

Density dependence is a fundamental concept for fish population dynamics. Although density-dependent growth and maturity among older juveniles and adults is important for regulating fish population size and for fisheries management, the mechanism of density dependence for marine fishes remains unclear. Here, we examined changes in Japanese sardine growth with increasing abundance beginning in the 2010s and how the current pattern of density-dependent growth differs from that of a previous stock-increase period from the 1970s to early 1980s. During the current period of increasing abundance, mean standard length has already dropped to the lowest level yet observed and growth has declined more sharply with increased abundance than in the 1970s and 1980s. Mesozooplankton biomass in July in the summer feeding grounds was also lower during the current period. Therefore, our results suggest that summer food availability in the western North Pacific controls the strength of density-dependent growth. A lower carrying capacity for Japanese sardine could account for the stronger density dependence of growth observed in the 2010s; this indicates that future Japanese sardine abundance might not increase as much as in the 1980s unless food availability improves.

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Transport and environmental temperature variability of eggs and larvae of the Japanese anchovy (Engraulis japonicus) and Japanese sardine (Sardinops melanostictus) in the western North Pacific estimated via numerical particle-tracking experiments

Fisheries Oceanography ◽

10.1111/j.1365-2419.2009.00501.x ◽

2009 ◽

Vol 18 (2) ◽

pp. 118-133 ◽

Cited By ~ 39

Author(s):

SACHIHIKO ITOH ◽

ICHIRO YASUDA ◽

HARUKA NISHIKAWA ◽

HIDEHARU SASAKI ◽

YOSHIKAZU SASAI

Keyword(s):

Particle Tracking ◽

North Pacific ◽

Western North Pacific ◽

Environmental Temperature ◽

Temperature Variability ◽

Japanese Anchovy ◽

Japanese Sardine ◽

Engraulis Japonicus ◽

Eggs And Larvae

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Two takes on the ecosystem impacts of climate change and fishing: Comparing a size-based and a species-based ecosystem model in the central North Pacific

Progress In Oceanography ◽

10.1016/j.pocean.2015.04.004 ◽

2015 ◽

Vol 138 ◽

pp. 533-545 ◽

Cited By ~ 13

Author(s):

Phoebe A. Woodworth-Jefcoats ◽

Jeffrey J. Polovina ◽

Evan A. Howell ◽

Julia L. Blanchard

Keyword(s):

Climate Change ◽

North Pacific ◽

Ecosystem Model ◽

Ecosystem Impacts ◽

Impacts Of Climate Change ◽

Central North Pacific

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Climate change and interspecific interactions drive species alternations between anchovy and sardine in the western North Pacific: Detection of causality by convergent cross mapping

Fisheries Oceanography ◽

10.1111/fog.12254 ◽

2018 ◽

Vol 27 (4) ◽

pp. 312-322 ◽

Cited By ~ 13

Author(s):

Shin-Ichiro Nakayama ◽

Akinori Takasuka ◽

Momoko Ichinokawa ◽

Hiroshi Okamura

Keyword(s):

Climate Change ◽

North Pacific ◽

Western North Pacific ◽

Interspecific Interactions ◽

Convergent Cross Mapping

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Reliability Analysis of Climate Change of Tropical Cyclone Activity over the Western North Pacific

Journal of Climate ◽

10.1175/2011jcli3996.1 ◽

2011 ◽

Vol 24 (22) ◽

pp. 5887-5898 ◽

Cited By ~ 44

Author(s):

Fumin Ren ◽

Jin Liang ◽

Guoxiong Wu ◽

Wenjie Dong ◽

Xiuqun Yang

Keyword(s):

Climate Change ◽

North Pacific ◽

Western North Pacific ◽

Individual Characteristics ◽

Japan Meteorological Agency ◽

Accurate Information ◽

China Meteorological Administration ◽

The Past ◽

Observational Techniques ◽

Joint Typhoon Warning Center

Abstract Data homogeneity has become a significant issue in the study of tropical cyclones (TCs) and climate change. In this study, three historical datasets for the western North Pacific TCs from the Joint Typhoon Warning Center (JTWC), Japan Meteorological Agency (JMA), and China Meteorological Administration (CMA) are compared with a focus on TC intensity. Over the past 55 years (1951–2005), significant discrepancies are found among the three datasets, especially between the CMA and JTWC datasets. The TC intensity in the CMA dataset was evidently overestimated in the 1950s and from the late 1960s to the early 1970s, while it was overestimated after 1988 in the JTWC dataset, especially during 1993–2003. Large discrepancies in TC tracks exist in two periods of 1951–early 1960s and 1988–1990s. Further analysis reveals that the discrepancies are obviously related to the TC observational techniques. Before the era of meteorological satellites (1951–the early 1960s), and after the termination of aircraft reconnaissance (since 1988), large discrepancies exist in both TC intensity and track. That the intensity discrepancy was smallest during the period (1973–87) when aircraft reconnaissance data and the Dvorak technique were both available suggests that availability of the aircraft reconnaissance and the Dvorak method helps in reducing the TC intensity discrepancy. For those TCs that were included in all the three datasets, no significant increasing or decreasing trend was found over the past 50 years. Each of the three TC datasets has individual characteristics that make it difficult to tell which one is the best. For TCs that affect China, the CMA dataset has obvious advantages such as more complete and more accurate information.

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